Self-locking nut



April 13, 1943. H. F. GADE SELF-LOCKING NUT Original Filed May 16, 1941 UNITE-D STAT Patented A15..- 13, 1 943 p 2,316,684 SELF-LOCKINGNUT Harald F. Gade, Philadelphia Pa., assignor to Pennsylvania Manufacturing Company, J enkintown, Pa., a corporation of Delaware -Original application May .16, 1941, Serial No. 393,824. Divided and this application February ES PA ENT. oFFlcF.

9, 1942, Serial No. 430,141

' ZCIaims. (01. 151-21).

This i s adivision of my application for patent filed May 16, 1941, Serial Number 393,824.

This invention relates to improvements in selflocking nuts of the type wherein the locking function is performed by 'a segmental portion or portions at one end of the nut, said portion or portions being so formed as to constrict the nornuts are formed at one end with a plurality of slots which define the sides of the aforesaid segmental portions. It has been found that the infinal step in the manufacturing procedure, and Fig. 8 is a top plan view of the nut assembled on the bolt and illustrating the structural characteristics of the finished product.

With reference to the drawing, the nut therein illustrated as an embodiment of my invention comprises a plurality of slots l which form at the outer end of the nut a plurality of segmental portions 2. Preferably the nut is provided at-the inner ends of the segments 2 with an' external annular groove 3 which reduces the thickness of the wall at this point,'so that in effect the segments are joined to the body of the nut by a relnet edges of the segments have a scraping action on the threads of the bolt which is objectionable, particularly in the case of bolts which are cadmium-plated for the purpose of preventing cor-' rosion. Such cadmium-plated bolts are widely used, for example, in the aeroplane industry, where corrosion must be avoided, and the aforesaid scraping action of the edges of the resilient Segmental locking portions tends to remove the cadmium and expose the ferrous metal to the at mosphere. In other respects, this particular type of self-locking nut is highly efiicient, and the present inventioncontemplates the provision of a nut of this type wherein the inner longitudinal edges of the locking segments shall be freed from scraping contact with the .bolt.-

More specifically, an object of the invention is to form the nut in such manner that the aforesaid inner edges of the locking segments shall be sufficiently remote to the opposed surfaces of the bolt to avoid scraping contact, while at the same time the said segments will have the frictional engagement with the bolt surfaces required for the locking function.

Another and more general object of the invention is to provide a which shall be generally more efiicient than the nuts of the prior art.

In the attached drawing:

Figure 1 is a side elevational view of a nut made in accordance with my invention;

Fig. 2' is a plan view of the nut shown in Fig. 1; Figs. 3 and 4 are vertical sectional views illustrating successive steps in the process of manufacture;

Figs. 5 and 6 are sectional views on the hue 5-5, Fig. 4, illustrating further steps in the procl of the segments are made to conform in curvanut of the type described the blank being grooved and then internally threaded in the usual manner, and subsequently slotted to produce the form described above. The nut in this-stage of formation is illustrated in the sectional view of Fig. 3.

In accordance with my invention, I now thread into the upper slotted end of the nut a tapered expanding plug 4, see Fig. 3, which as shown in Fig. 4 has the effect of outwardly radially deflecting the segmental portions 2. Since in transverse section the inner surfaces of the segments 2 describe arcs of a circle of smaller radius than the tapered portion of the expanding plug, the segments 2, when expanded, will bear against the plug only at their side edges, as illustrated in Fig. 5. With the expanding plug in place and as illustrated in Figs. 4 and 5, the segments are now subjected externally to radial compression against the surface of the plug, by means, forexample, of compression elements 5, with the result that the inner threaded surfaces ture to the curvature of the plug. Preferably, the

form of the compression members 5 is such as to retain the normal outer contours of thesegments so that the distortion of the metal is confined entirely to the inner portions.

The expanding plug 4 is now removed from the nut and, as shown in Fig. 7, the pressure elements 5 again advanced to press the segmental portions 2 radially inward to such an extent that the inner surfaces of the segments converge into the normal bore 6 of the nut and are permanently set in this position, the said bore being thereby somewhat restricted at the outer end of the nut as illustrated.

When now the nut is threaded on the companion bolt, as illustrated in Fig. 8, wherein the bolt is indicated by the reference numeral 1, the segmental portions 2 will bear resiliently against the sides of the bolt. By reason of the fact, however, that curvature of the inner faces of the segments 2 is less acute than that of the bolt, the side edges 8 of the segments are relieved from close contact with the opposed bolt surfaces, with the result that the aforesaid objectionable scrapthe bolt and the segments are thereby-forced outwardly substantially into alignment with the body It will be noted that at the inner ends of the segments 2 on the line where they join the normal body on the nut; the radius of curvature of the inner faces of the segments is substantially the same as that of the normal bore 8. From this line outwardly the radius of curvature gradually increases to a maximum at the outer ends of the segments. Thus, throughout the height of the segments, as defined by the depth of the slits I, the longitudinal edges 8 of the segments are more remote to the axis of the bore 6 than the intervening areas of the curved inner surfaces of the segments. These surfaces in any transverse plane approach closest to the said axis at their mid areas,.in which areas they lie substantially in'tangential relation to a circle centering in said axis and somewhat smaller in radius than the circle defined by the normal bore.

It will be understood that the clearances shown in the drawing are exaggerated for the purpose of illustration. A taper slightly in excess of 1 in the threaded =plug, as measured by the angle a: in Fig. 3, or in other words, an in-- cluded angle of taper of slightly more than 2 will be found generally satisfactory, although the degree of taper may be varied as required. In general, it is desirable to employ the smallest taper that will adequately relieve the edges of the segment irom the bolt surfaces. In the finished product, the gripping or locking force will depend in part upon the depth of the annular recess 3 and in part upon the extent to which the locking segments are displaced inwardly toward the axis of the bore. Obviously these-factors will depend upon the size of the nut, the composition and characteristics of the metal stock, and the conditions under which the nut is tobe used. In most instances, the recess 3 should be of substantial depth in order to afford a proper degree of resilience in the segments.

1. A nut having at one end a plurality of longitudinal slots forming at that end of the nut a plurality of segmental sections resiliently displaceable in radial direction, the said segments being displaced inwardly so as to constrict the normal bore of the nut, and the inner faces of said segments having a transverse curvature of greater radius than the radius of said normal bore so that the longitudinal side edges of said segments are further removed from the axis ofthe bolt than are the mid sections of said segments.

2. A nut having at one end a plurality of longitudinal slots forming at that end of the nut a plurality of segmental sections resiliently displaceable-ln radial direction, the said segments converging inwardly so as to cqnstrict'the normal bore of the nut, the curvature of the inner faces of said segments atthe inner ends of the latter being substantially the same as the curvature of the normal bore of the nut and increasing gradually in radius toward the outer ends of said segments.

- HARALD F. GADE. 

